Your search keyword '"H.I Jang"' showing total 9 results

1. Production and optical properties of Gd-loaded liquid scintillator for the RENO neutrino detector

Author

Y. D. Kim, H.I. Jang, I.S. Yeo, W. Kim, S.S. Stepanyan, I. T. Lim, Jong-Min Park, K. Siyeon, Y. Choi, S. B. Kim, J. Y. Kim, S.H. So, J. K. Ahn, Jeong-Sik Choi, B. R. Kim, J.H. Lee, K. K. Joo, Eui-Chan Jeon, H. Kim, S. Choi, J. I. Lee, S. Y. Kim, Kangsoon Park, Intae Yu, K.J. Ma, W.Q. Choi, M. Y. Pac, I. G. Park, Jaekwang Lee, and J. S. Jang

Subjects

Physics, Nuclear and High Energy Physics, Physics::Instrumentation and Detectors, Detector, Attenuation length, Reactor Experiment for Neutrino Oscillation, Scintillator, Wavelength shifter, Nuclear physics, Neutrino detector, Physics::Chemical Physics, Neutrino, Neutrino oscillation, Instrumentation

Abstract

Reactor experiment for neutrino oscillation (RENO) began data-taking from August 2011. It successfully observed reactor antineutrino disappearance in April 2012 to measure the smallest mixing angle of θ 13 . Two identical detectors, one at near location and the other at far location, are constructed at the Yonggwang nuclear power plant in South Korea, to compare the observed reactor neutrino fluxes. Each RENO detector is filled with 16 mass tons of Gadolinium loaded liquid scintillator (GdLS) in the neutrino target region, and with 28 mass tons of unloaded liquid scintillator (LS) in the γ - catcher region surrounding the target. LS was developed to satisfy chemical, physical, optical properties, and safety requirements. Linear alkyl benzene (LAB) was chosen as a solvent because of its high flash-point, sufficient light yield, and being environmentally friendly. GdLS is carefully developed to keep a long attenuation length and high light yield for a long time period. In this paper, we report the characteristics and mass production of the RENO LS and GdLS.

Published

2013

2. Search for νμ→ντ oscillation using the τ decay modes into a single charged particle

Author

E. Eskut, A. Kayis, G. Onengüt, R. van Dantzig, M. de Jong, J. Konijn, O. Melzer, R.G.C. Oldeman, C.A.F.J. van der Poel, J.W.E. Uiterwijk, J.L. Visschers, M. Guler, M. Serin-Zeyrek, R. Sever, P. Tolun, M.T. Zeyrek, N. Armenise, F. Cassol, M.G. Catanesi, M.T. Muciaccia, E. Radicioni, S. Simone, L. Vivolo, A. Bülte, T. Patzak, K. Winter, P. Annis, R. El Aidi, M. Gruwé, C. Mommaert, M. Vander Donckt, B. Van de Vyver, P. Vilain, G. Wilquet, P. Righini, B. Saitta, E. Di Capua, C. Luppi, P. Zucchelli, Y. Ishii, T. Kawamura, M. Kazuno, S. Ogawa, H. Shibuya, J. Brunner, D. Cussans, J.P. Fabre, R. Ferreira, W. Flegel, M. Litmaath, D. Macina, R. Meijer Drees, H. Meinhard, P. Migliozzi, E. Niu, H. Øverȧs, J. Panman, I.M. Papadopoulos, E. Pesen, F. Riccardi, S. Ricciardi, A. Rozanov, D. Saltzberg, P. Strolin, R. Tsenov, Ch. Weinheimer, H. Wong, J. Goldberg, K. Hoepfner, M. Chikawa, E. Arik, A.A. Mailov, H.I. Jang, I.G. Park, J.S. Song, C.S. Yoon, K. Kodama, N. Ushida, S. Aoki, T. Hara, G. Brooijmans, D. Favart, G. Grégoire, J. Hérin, A. Artamonov, P. Gorbunov, V. Khovansky, V. Shamanov, D. Bonekämper, D. Frekers, D. Rondeshagen, T. Wolff, K. Hoshino, M. Kobayashi, M. Komatsu, Y. Kotaka, T. Kozaki, M. Miyanishi, M. Nakamura, K. Nakazawa, T. Nakano, K. Niu, K. Niwa, Y. Obayashi, O. Sato, T. Toshito, S. Buontempo, A. Cocco, N. D'Ambrosio, G. De Lellis, A. Ereditato, G. Fiorillo, F. Garufi, M. Messina, V. Palladino, S. Sorrentino, V. Tioukov, K. Nakamura, T. Okusawa, T. Yoshida, A. Capone, D. De Pedis, S. Di Liberto, U. Dore, P.F. Loverre, L. Ludovici, A. Maslennikov, M.A. Mazzoni, G. Piredda, R. Santacesaria, A. Satta, E. Barbuto, A. di Bartolomeo, C. Bozza, G. Grella, G. Iovane, G. Romano, G. Rosa, Y. Sato, and I. Tezuka

Subjects

Physics, Nuclear physics, Nuclear and High Energy Physics, Particle physics, Muon, Tau neutrino, Hadron, High Energy Physics::Experiment, Muon neutrino, Neutrino, Charged particle, Charged current, Lepton

Abstract

Part of the neutrino events collected in 1994-1995 by the CHORUS experiment has been analysed. A search was performed for ντ charged current interactions followed by the τ lepton decay into a single charged negative hadron, a possible indication for νμ→ντ oscillation. A sample of 6844 events without an identified muon has been located in the emulsion target. Within the selection criteria, no τ− candidate has been found. Combining this result with the one from the search for ντ interactions using the muonic decay mode (36 182 events with an identified muon), a 90% C.L. limit on the mixing angle sin22θμτ

Published

1998

3. Upper limits for charm hadron decays to two muons plus hadrons

Author

K. Kodama, N. Ushida, A. Mokhtarani, V.S. Paolone, J.T. Volk, J.O. Wilcox, P.M. Yager, R.M. Edelstein, A.P. Freyberger, D.B. Gibaut, R.J. Lipton, W.R. Nichols, D.M. Potter, J.S. Russ, C. Zhang, Y. Zhang, H.I. Jang, J.Y. Kim, T.I. Kim, I.T. Lim, M.Y. Pac, B.R. Baller, R.J. Stefanski, K. Nakazawa, K.S. Chung, S.H. Chung, D.C. Kim, I.G. Park, M.S. Park, J.S. Song, C.S. Yoon, M. Aryal, N.W. Reay, R.A. Sidwell, N.R. Stanton, M. Chikawa, T. Abe, T. Fujii, G. Fujioka, K. Fujiwara, H. Fukushima, T. Hara, Y. Takahashi, K. Taruma, Y. Tsuzuki, C. Yokoyama, S.D. Chang, B.G. Cheon, J.H. Cho, J.S. Kang, C.O. Kim, K.Y. Kim, T.Y. Kim, J.C. Lee, S.B. Lee, G.Y. Lim, S.W. Nam, T.S. Shin, K.S. Sim, J.K. Woo, Y. Isokane, Y. Tsuneoka, S. Aoki, A. Gauthier, K. Hoshino, H. Kitamura, M. Kobayashi, M. Komatsu, M. Miyanishi, K. Nakamura, M. Nakamura, Y. Nakamura, S. Nakanishi, K. Niu, K. Niwa, M. Nomura, K. Okada, H. Tajima, T. Toshitou, S. Yoshida, J.M. Dunlea, S.G. Frederiksen, S. Kuramata, B.G. Lundberg, G.A. Oleynik, K. Reibel, K. Moriyama, H. Shibata, G.R. Kalbfleisch, P. Skubic, J.M. Snow, S.E. Willis, O. Kusumoto, T. Okusawa, M. Teranaka, T. Tominaga, T. Yoshida, H. Yuuki, H. Okabe, J. Yokota, M. Kazuno, T. Koya, E. Niu, S. Ogawa, H. Shibuya, S. Watanabe, N. Yasuda, M. Kamiya, Y. Sato, I. Tezuka, M. Yamaki, S.Y. Bahk, and S.K. Kim

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Particle physics, Muon, Spectrometer, High Energy Physics::Phenomenology, Hadron, High Energy Physics::Experiment, Nuclear Experiment

Abstract

A search for charm hadron decays into two muons plus one or more hadrons has been carried out using a hybrid emulsion spectrometer. This technique is sensitive to modes with missing neutrals, e.g. π0μ+μ− and ϱ±μ+μ−, as well as to constrained modes having visible invariant masses equal to those of charm states. No evidence for any such decays has been found, which allows upper limits at the 90% confidence level as low as 1.8 × 10−4 to be placed on the branching fractions for charm-changing neutral-current and lepton-number violating decay modes.

Published

1995

4. Measurement of Γ(D0 → K−μ+ν)/Γ(D0→ μ+X using a D tag

Author

K. Kodama, N. Ushida, A. Mokhtarani, V.S. Paolone, J.T. Volk, J.O. Wilcox, P.M. Yager, R.M. Edelstein, A.P. Freyberger, D.B. Gibaut, R.J. Lipton, W.R. Nichols, D.M. Potter, J.S. Russ, C. Zhang, Y. Zhang, H.I. Jang, J.Y. Kim, T.I. Kim, I.T. Lim, M.Y. Pac, B.R. Baller, R.J. Stefanski, K. Nakazawa, K.S. Chung, S.H. Chung, D.C. Kim, I.G. Park, M.S. Park, J.S. Song, C.S. Yoon, M. Aryal, N.W. Reay, R.A. Sidwell, N.R. Stanton, M. Chikawa, T. Abe, T. Fujii, G. Fujioka, K. Fujiwara, H. Fukushima, T. Hara, Y. Takahashi, K. Taruma, Y. Tsuzuki, C. Yokoyama, S.D. Chang, B.G. Cheon, J.H. Cho, J.S. Kang, C.O. Kim, K.Y. Kim, T.Y. Kim, J.C. Lee, S.B. Lee, G.Y. Lim, S.W. Nam, T.S. Shin, K.S. Sim, J.K. Woo, Y. Isokane, Y. Tsuneoka, S. Aoki, A. Gauthier, K. Hoshino, H. Kitamura, M. Kobayashi, M. Miyanishi, K. Nakamura, M. Nakamura, Y. Nakamura, S. Nakanishi, K. Niu, K. Niwa, M. Nomura, H. Tajima, S. Yoshida, J.M. Dunlea, S.G. Frederiksen, S. Kuramata, B.G. Lundberg, G.A. Oleynik, R. Reibel, K. Moriyama, H. Shibata, G.R. Kalbfleisch, P. Skubic, J.M. Snow, S.E. Willis, O. Kusumoto, T. Okusawa, M. Teranaka, T. Tominaga, T. Yoshida, H. Yuuki, H. Okabe, J. Yokota, M. Kazuno, T. Koya, E. Niu, S. Ogawa, H. Shibuya, S. Watanabe, N. Yasuda, M. Kamiya, Y. Sato, I. Tezuka, M. Yamaki, S.Y. Bahk, and S.K. Kim

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Meson, Branching fraction, Hadron, Analytical chemistry, Nuclear emulsion, Decay chain

Abstract

The relative branching fraction RK = Γ(D0 → K−μ+v)/Γ(D0 → μ−X) has been measured by Fermilab experiment E653, using D0 mesons produced by 600 GeV π−. The semimuonic decay sample of 232 events was identified by the decay chain D ∗+ → D 0 π + , D 0 → μ + h − X , where h is a hadron. The Kμv component was extracted from the joint distribution of these events in the D0 decay variables Mmin and pTh. We find RK = 0.472 ± 0.051 (stat) ± 0.040 (sys), and use a world average of the D0 → Klv branching fraction to obtain the D0 inclusive semimuonic branching fraction B(D0 → μ+X) = (7.67 ± 1.13)%.

Published

1994

5. New techniques for emulsion analysis in a hybrid experiment

Author

K. Kodama, N. Ushida, A. Mokhtarani, V.S. Paolone, J.T. Volk, J.O. Wilcox, P.M. Yager, R.M. Edelstein, A.P. Freyberger, D.B. Gibaut, R.J. Lipton, W.R. Nichols, D.M. Potter, J.S. Russ, C. Zhang, Y. Zhang, H.I. Jang, J.Y. Kim, T.I. Kim, I.T. Lim, M.Y. Pac, B.R. Baller, R.J. Stefanski, K. Nakazawa, K.S. Chung, S.H. Chung, D.C. Kim, I.G. Park, M.S. Park, J.S. Song, C.S. Yoon, S. Kuramata, M. Chikawa, S. Aoki, T. Hara, Y. Takahashi, K. Taruma, S.D. Chang, D.G. Cheon, J.H. Cho, J.S. Kang, C.O. Kim, K.Y. Kim, T.Y. Kim, J.C. Lee, S.B. Lee, G.Y. Lim, S.W. Nam, T.S. Shin, K.S. Sim, J.K. Woo, A. Gauthier, K. Hoshino, S. Ishikawa, T. Kawai, H. Kitamura, K. Kobayashi, M. Miyanishi, K. Nakamura, M. Nakamura, Y. Nakamura, S. Nakanishi, K. Niwa, M. Nomura, H. Sasaki, H. Tajima, Y. Tomita, S. Yoshida, M. Aryal, J.M. Dunlea, S.G. Frederiksen, B.G. Lundberg, G.A. Oleynik, N.W. Reay, K. Reibel, R.A. Sidwell, N.R. Stanton, G.R. Kalbfleisch, P. Skubic, J.M. Snow, S.E. Willis, S. Ohashi, T. Okusawa, M. Teranaka, T. Tominaga, T. Yoshida, H. Okabe, J. Yokota, M. Adachi, S. Ikegami, M. Kazuno, T. Koya, E. Niu, H. Shibuya, S. Watanabe, Y. Sato, I. Tezuka, S.Y. Bahk, and S.K. Kim

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Nuclear engineering, Emulsion, Nuclear emulsion, Fermilab, Instrumentation, Reliability (statistics)

Abstract

A new method, called graphic scanning, was developed by the Nagoya University Group for emulsion analysis in a hybrid experiment. This method enhances both speed and reliability of emulsion analysis. Details of the application of this technique to the analysis of Fermilab experiment E653 are described.

Published

1994

6. Search for diffractive charm production in 800 GeV/c proton-silicon interactions

Author

K. Kodama, N. Ushida, A. Mokhtarani, V.S. Paolone, J.T. Volk, J.O. Wilcox, P.M. Yager, R.M. Edelstein, A.P. Freyberger, D.B. Gibaut, R.J. Lipton, W.R. Nichols, D.M. Potter, J.S. Russ, J.J. Smetanka, C. Zhang, Y. Zhang, H.I. Jang, J.Y. Kim, T.I. Kim, I.T. Lim, M.Y. Pac, B.R. Baller, R.J. Stefanski, K. Nakazawa, K.S. Chung, S.H. Chung, D.C. Kim, I.G. Park, M.S. Park, J.S. Song, C.S. Yoon, M. Chikawa, T. Abe, T. Fujii, G. Fujioka, K. Fujiwara, H. Fukushima, T. Hara, Y. Takahashi, K. Taruma, Y. Tsuzuki, C. Yokoyama, S.D. Chang, B.G. Cheon, J.H. Cho, J.S. Kang, C.O. Kim, K.Y. Kim, T.Y. Kim, J.C. Lee, S.B. Lee, G.Y. Lim, S.W. Nam, T.S. Shin, K.S. Sim, J.K. Woo, Y. Isokane, Y. Tsuneoka, S. Aoki, A. Gauthier, K. Hoshino, H. Kitamura, M. Kobayashi, M. Miyanishi, K. Nakamura, M. Nakamura, Y. Nakamura, S. Nakanishi, K. Niu, K. Niwa, M. Nomura, H. Tajima, S. Yoshida, M. Aryal, J.M. Dunlea, S.G. Frederiksen, S. Kuramata, B.G. Lundberg, G.A. Oleynik, N.W. Reay, K. Reibel, R.A. Sidwell, N.R. Stanton, K. Moriyama, H. Shibata, G.R. Kalbfleisch, P. Skubic, J.M. Snow, S.E. Willis, O. Kusumoto, T. Okusawa, M. Teranaka, T. Tominaga, T. Yoshida, H. Yuuki, H. Okabe, J. Yokota, M. Adachi, I. Ikegami, M. Kazuno, E. Niu, H. Shibuya, S. Watanabe, Y. Sato, M. Seshimo, I. Tezuka, S.Y. Bahk, and S.K. Kim

Subjects

Physics, Nuclear and High Energy Physics, Particle physics, Silicon, Proton, chemistry.chemical_element, Elementary particle, Dissociation reaction, Nuclear physics, Pair production, chemistry, D meson, Mass spectrum, Charm (quantum number)

Abstract

A search for charm production in the coherent diffractive dissociation reaction pSi→XSi was carried out for the modes D0→K−π+, D0→K−π+π+π−, and D+→K−π+π+. No charm signals were observed, and the 90% confidence level upper limit for coherent charm pair production was determined to be 26 μb per silicon nucleus. The results are interpreted as an upper limit of 0.2% on the amount of intrinsic charm in the proton.

Published

1993

7. Measurement of beauty hadron pair production in 600 GeV/c π− emulsion interactions

Author

K. Kodama, N. Ushida, A. Mokhtarani, V.S. Paolone, J.T. Volk, J.O. Wilcox, P.M. Yager, R.M. Edelstein, A.P. Freyberger, D.B. Gibaut, R.J. Lipton, W.R. Nichols, D.M. Potter, J.S. Russ, C. Zhang, Y. Zhang, H.I. Jang, J.Y. Kim, T.I. Kim, I.T. Lim, M.Y. Pac, B.R. Baller, R.J. Stefanski, K. Nakazawa, K.S. Chung, S.H. Chung, D.C. Kim, I.G. Park, M.S. Park, J.S. Song, C.S. Yoon, M. Chikawa, T. Abe, T. Fujii, K. Fujiwara, H. Fukushima, T. Hara, Y. Takahashi, K. Taruma, Y. Tsuzuki, C. Yokoyama, S.D. Chang, B.G. Cheon, J.H. Cho, J.S. Kang, C.O. Kim, K.Y. Kim, T.Y. Kim, J.C. Lee, S.B. Lee, G.Y. Lim, S.W. Nam, T.S. Shin, K.S. Sim, J.K. Woo, Y. Isokane, Y. Tsuneoka, S. Aoki, A. Gauthier, K. Hoshino, H. Kitamura, M. Kobayashi, M. Miyanashi, K. Nakamura, Y. Nakamura, S. Nakanishi, K. Niu, K. Niwa, M. Nomura, H. Tajima, S. Yoshida, M. Aryal, J.M. Dunlea, S.G. Frederiksen, S. Kuramata, B.G. Lundberg, G.A. Olevnik, N.W. Reay, K. Reibel, R.A. Sidwell, N.R. Stanton, K. Moriyama, H. Shibata, G.R. Kalbfleisch, P. Skubic, J.M. Snow, S.E. Willis, O. Kusumoto, T. Okusawa, M. Teranaka, T. Tominaga, T. Yoshida, H. Yuuki, H. Okabe, J. Yokota, M. Adachi, M. Kazuno, E. Niu, H. Shibuya, S. Watanabe, I. Ohtsuka, Y. Sato, I. Tezuka, S.Y. Bahk, and S.K. Kim

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Cross section (physics), Particle physics, Pair production, Hadron, Nuclear emulsion, Fermilab, Nucleon

Abstract

We report on the production characteristics and total cross section for 9 beauty hadron pairs produced by a 600 GeV/ c π − beam, the first such information in this energy region. The events were detected in the hybrid emulsion spectrometer of Fermilab Experiment E653. The measured pair cross section for all χ F , assuming linear A dependence, is 33±11 (stat.)±6(syst.) nb/nucleon. Fits of the inclusive single-hadron production distribution to the forms d σ d χ F ∝ (1−|χ F −χ 0 |) n and d σ d p T 2 ∝ exp (−bp t 2 ) give n=5.0 −2.1−1.7 +2.7+1.7 , χ 0 =0.06 −0.07−0.03 +0.06+0.02 , and b=0.13 −0.04−0.02 +0.05+0.02 ( GeV /c −2 . .The pairs tend to be produced back-to-back.

Published

1993

8. Charm meson production in 600 GeV/c π- emulsion interactions

Author

K. Kodama, N. Ushida, A. Mokhtarami, V.S. Paolone, J.T. Volk, J.O. Wilcox, P.M. Yager, R.M. Edelstein, A.P. Freyberger, D.B. Gibaut, R.J. Lipton, W.R. Nichols, D.M. Potter, J.S. Russ, C. Zhang, Y. Zhang, H.I. Jang, J.Y. Kim, T.I. Kim, I.T. Lim, M.Y. Pac, B.R. Baller, R.J. Stefanski, K. Nakazawa, K.S. Chung, S.H. Chung, D.C. Kim, I.G. Park, M.S. Park, J.S. Song, C.S. Yoon, M. Chikawa, T. Abe, T. Fujii, G. Fujioka, K. Fujiwara, H. Fukushima, T. Hara, Y. Takahashi, K. Taruma, Y. Tsuzuki, C. Yokoyama, S.D. Chang, B.G. Cheon, J.H. Cho, J.S. Kang, C.O. Kim, K.Y. Kim, T.Y. Kim, J.C. Lee, S.B. Lee, G.Y. Lim, S.W. Nam, T.S. Shin, K.S. Sim, J.K. Woo, Y. Isokane, Y. Tsuneoka, S. Aoki, A. Gauthier, K. Hoshino, H. Kitamura, M. Kobayashi, M. Miyanishi, K. Nakamura, M. Nakamura, Y. Nakamura, S. Nakanishi, K. Niu, K. Niwa, H. Tajima, J.M. Dunlea, S.G. Frederiksen, S. Kuramata, B.G. Lundberg, G.A. Oleynik, N.W. Reay, K. Reibel, R.A. Sidwell, N.R. Stanton, K. Moriyama, H. Shibata, G.R. Kalbfleisch, P. Skubic, J.M. Snow, S.E. Willis, O. Kasumoto, T. Okusawa, M. Teranaka, T. Tominaga, T. Yoshida, H. Yuuki, H. Okabe, J. Yokota, M. Adachi, M. Kazuno, E. Niu, H. Shibuya, S. Watanabe, I. Ohtsuka, Y. Sato, I. Tezuka, S.Y. Bahk, and S.K. Kim

Subjects

Physics, Nuclear physics, Quantum chromodynamics, Nuclear and High Energy Physics, Particle physics, Meson production, Meson, Charm (quantum number), Nucleon, Atomic mass

Abstract

We present total and differential cross sections for charm mesons produced in 600 GeV/c π- emulsion interactions. Fits to d2σ/dxF dpT2∞ (1−|xF|)nexp (-bpT2) for 676 electronically reconstructed D mesons with xF>0 give n=4.25±0.24 (stat.)±0.23 (syst.) and b=0.76±0.03±0.03 (GeV/c)-2. The total inclusive D+ and D0 cross sections are σ(π-N→D±; xF>0) = 8.66±0.46±1.96μb nucleon and σ(π - N→D 0 D 0 ; x F >0)=22.05±1.37±4.82μb nucleonk, where a linear dependence on the mean atomic weight of the target is assumed. These results are compared to next-to-leading order QCD predictions.

Published

1992

9. Measurement of the form factor ratios in the decay

Author

K. Kodama, N. Ushida, A. Mokhtarani, V.S. Paolone, J.T. Volk, J.O. Wilcox, P.M. Yager, R.M. Edelstein, A.P. Freyberger, D.B. Gibaut, R.J. Lipton, W.R. Nichols, D.M. Potter, J.S. Russ, C. Zhang, Y. Zhang, H.I. Jang, J.Y. Kim, T.I. Kim, I.T. Lim, M.Y. Pac, B.R. Baller, R.J. Stefanski, K. Nakazawa, K.S. Chung, S.H. Chung, D.C. Kim, I.G. Park, M.S. Park, J.S. Song, C.S. Yoon, M. Chikawa, T. Abe, S. Aoki, T. Fujii, G. Fujioka, K. Fujiwara, H. Fukushima, T. Hara, Y. Takahashi, K. Taruma, Y. Tsuzuki, C. Yokoyama, S.D. Chang, B.G. Cheon, J.H. Cho, J.S. Kang, C.O. Kim, K.Y. Kim, T.Y. Kim, J.C. Lee, S.B. Lee, G.Y. Lim, S.W. Nam, T.S. Shin, K.S. Sim, J.K. Woo, Y. Isokane, Y. Tsuneoka, A. Gauthier, K. Hoshino, H. Kitamura, M. Kobayashi, M. Miyanishi, K. Nakamura, M. Nakamura, S. Nakanishi, K. Niu, K. Niwa, H. Tajima, J.M. Dunlea, S.G. Frederiksen, S. Kuramata, B.G. Lundberg, G.A. Oleynik, N.W. Reay, K. Reibel, R.A. Sidwell, N.R. Stanton, K. Moriyama, H. Shibata, G.R. Kalbfleisch, P. Skubic, J.M. Snow, S.E. Willis, W.Y. Yuan, O. Kusumoto, T. Okusawa, M. Teranaka, T. Tominaga, T. Yoshida, J. Yuuki, H. Okabe, J. Yokota, M. Adachi, M. Kazuno, E. Niu, H. Shibuya, S. Watanabe, I. Ohtsuka, Y. Sato, I. Tezuka, S.Y. Bahk, and S.K. Kim

Subjects

Nuclear physics, Physics, Nuclear and High Energy Physics, Transverse plane, Angular distribution, Atomic physics, Polarization (waves), Pseudovector

Abstract

A measurement of the form factor ratios in the decay D + → K ∗ (892) 0 μ + ν is obtained by fitting to the decay angles and q2 of 305 events. The results, evaluated at q2 = 0, are A2(0)/A1(0) = 0.82+0.22−0.23 (stat.)±0.11 (sys.) and V(0)/A1(0) = 2.00+0.34−0.32±0.16, where A1 and A2 are the axial vector form factors and V is the vector form factor. The corresponding ratio of the longitudinal to transverse polarization of the K ∗0 is 1.18±0.18±0.08. These results are compared with other experimental results and with theoretical predictions.

Published

1992